The FXR1 network acts as signaling scaffold for actomyosin remodeling

bioRxiv [Preprint]. 2024 May 25:2023.11.05.565677. doi: 10.1101/2023.11.05.565677.

Abstract

It is currently not known whether mRNAs fulfill structural roles in the cytoplasm. Here, we report the FXR1 network, an mRNA-protein (mRNP) network present throughout the cytoplasm, formed by FXR1-mediated packaging of exceptionally long mRNAs. These mRNAs serve as underlying condensate scaffold and concentrate FXR1 molecules. The FXR1 network contains multiple protein binding sites and functions as a signaling scaffold for interacting proteins. We show that it is necessary for RhoA signaling-induced actomyosin reorganization to provide spatial proximity between kinases and their substrates. Point mutations in FXR1, found in its homolog FMR1, where they cause Fragile X syndrome, disrupt the network. FXR1 network disruption prevents actomyosin remodeling-an essential and ubiquitous process for the regulation of cell shape, migration, and synaptic function. These findings uncover a structural role for cytoplasmic mRNA and show how the FXR1 RNA-binding protein as part of the FXR1 network acts as organizer of signaling reactions.

Keywords: Actomyosin reorganization; FMR1; FXR1; Fragile X syndrome; RNA-binding protein; biomolecular condensates; cytoplasmic organization; messenger ribonucleoprotein (mRNP) network; non-canonical roles of mRNA; protein interaction hub; signal transduction; signaling scaffold; spatial proximity; structural role of mRNA.

Publication types

  • Preprint